Hierarchical distribution of ascending slopes, nearly neutral networks, highlands, and local optima at the \(d\)th order in an NK fitness landscape
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Publication:1797471
DOI10.1016/J.JTBI.2008.06.002zbMath1400.92357OpenAlexW1989308467WikidataQ47590262 ScholiaQ47590262MaRDI QIDQ1797471
Publication date: 22 October 2018
Published in: Journal of Theoretical Biology (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.jtbi.2008.06.002
Related Items (4)
Theoretical consideration of selective enrichment in in vitro selection: optimal concentration of target molecules ⋮ Estimation of statistical binding properties of ligand population during in vitro selection based on population dynamics theory ⋮ Biophysical connection between evolutionary dynamics and thermodynamics in \textit{in vitro} evolution ⋮ Evolutionary dynamics of a polymorphic self-replicator population with a finite population size and hyper mutation rate
Cites Work
- Thermodynamical interpretation of evolutionary dynamics on a fitness landscape in a evolution reactor. I
- Metastable evolutionary dynamics: crossing fitness barriers or escaping via neutral paths?
- Rigorous results for the NK model.
- Fitting protein-folding free energy landscape for a certain conformation to an NK fitness landscape
- Estimating some features of \(NK\) fitness landscapes.
- More rigorous results on the Kauffman-Levin model of evolution.
- Extracting characteristic properties of fitness landscape from \textit{in vitro} molecular evolution: a case study on infectivity of fd phage to \textit{E. coli}
- Percolation on fitness landscapes: effects of correlation, phenotype, and incompatibilities
- Protein evolution on partially correlated landscapes.
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